Design of a Simulator and Testing Schemes for Micro-Grid Protection

المشروع

تفاصيل المشروع

Description

In the project under presentation, the contribution will be presented in three directions; one in micro-grid protection and fault location, second in distributed control architecture for electrical distribution networks with DG and the third one in a design of a smart test bench for IEDs and protective relays. To theoretically evaluate the proposed algorithms, simulations will be accomplished using the MATLAB and EMTP- like programs (PsCad, DigSilent etc.). Experimentally, the techniques will be tested using a pilot module of electrical micro-grids. The project study will enhance the power quality, as the minimum faulty area will be isolated. The way to control the data transmitted throughout the network will be designed concerning decentralizing the control system. Generally, the project will propose several practical techniques. These techniques will be presented in implementable forms suitable to be incorporated in digital relays. The results of the project will be published in international journals in the field of electrical power and communication systems. The regular cooperation with the industry will also bring more knowledge to the designers and product developers The power system simulator (Nickerson) represents conventional generation, transmission, and distribution power system and is used in the power system protection course. In this project, it will be integrated with the available Intelligent Electronic Devices IEDs (SEL and MiCom IEDs) and will be tied together with the micro-grid installed in the same room in an architecture that provides reliable and secure protection, control and monitoring for both the conventional systems and the micro-grid.

Layman's description

In the project under presentation, the contribution will be presented in three directions; one in micro-grid protection and fault location, second in distributed control architecture for electrical distribution networks with DG and the third one in a design of a smart test bench for IEDs and protective relays. To theoretically evaluate the proposed algorithms, simulations will be accomplished using the MATLAB and EMTP- like programs (PsCad, DigSilent etc.). Experimentally, the techniques will be tested using a pilot module of electrical micro-grids. The project study will enhance the power quality, as the minimum faulty area will be isolated. The way to control the data transmitted throughout the network will be designed concerning decentralizing the control system. Generally, the project will propose several practical techniques. These techniques will be presented in implementable forms suitable to be incorporated in digital relays. The results of the project will be published in international journals in the field of electrical power and communication systems. The regular cooperation with the industry will also bring more knowledge to the designers and product developers The power system simulator (Nickerson) represents conventional generation, transmission, and distribution power system and is used in the power system protection course. In this project, it will be integrated with the available Intelligent Electronic Devices IEDs (SEL and MiCom IEDs) and will be tied together with the micro-grid installed in the same room in an architecture that provides reliable and secure protection, control and monitoring for both the conventional systems and the micro-grid.
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